Titlebook: Rhythms in Fishes; M. A. Ali Book 1992 Springer Science+Business Media New York 1992 Adaptation.Pet.behavior.biological.fish.phase.recepto

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Feeding-Entrained Circadian Rhythms in Fishes,xtensive work with laboratory mammals, however, information on this topic in fishes is meager. An attempt at a broad overview at this point is fated from the outset to be data poor and speculation rich; hopefully this paper will, nevertheless, serve a heuristic role. Specifically, the paper addresse

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Regulation of the Rhythmic Melatonin Secretion by Fish Pineal Photoreceptor Cells,resent major components in the adaptation of organisms to their environment. Environmental factors, such as light and temperature, play an important role in the synchronization of these rhythms. In vertebrates, synchronization is mediated through the circadian system, which is composed of sensors an

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Melatonin Synthesis by the Teleost Pineal: An Overview,for specific reasons, melatonin formation in teleost pineal organs, should be asked to prepare an overview of the mechanisms that seem to govern and control melatonin synthesis. One examines melatonin formation as it is associated with electrical properties of teleost pineal photoreceptor cells, ano

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Photoreceptive Functions of the Teleost Pineal Organ and Their Implications in Biological Rhythms,owing that they are driven by an intrinsic daily or circadian clock. External stimuli from the environment are responsible for the entrainment or synchronization of such rhythms. Among vertebrates several brain regions have been implicated as organizers of circadian rhythms: the lateral eyes, the re

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Light Dependent and Endogenous Circadian Control of Adaptation in Teleost Retinae,nd movement. This elaborate array of neuronal circuitry is capable of functioning under an enormous range of intensities. A number of separate mechanisms ensure that a level of neural activity is maintained that allows a functioning of the neurones connecting the retina to the brain at virtually all

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